Document feed belt



Dec. 9, 1969 G. E. FACKLER DOCUMENT FEED BELT .5 Sheets-Sheet 1 Filed Jan. 17, 1968 INVENTOR. E FAC KLE R GEORGE A TTOPNEVS Dec. 9, 1969 G. E. FACKLER 3,482,676

DOCUMENT FEED BELT I Filed Jan. 17, 1968 5 Sheets-Sheet 2 FIG-2 INVENTOR. GEORGE E. FACKLER ATTORNEYS Dec. 9, 1969 G. E. FACKLER 3,482,576

DOCUMENT FEED BELT Filed Jan. 17, 1968 5 Sheets-Sheet 5 x I l l V I INVENTOR. GEORGE E. FAcKL BY H,

A TTOEWEVS Dec. 9, 5.969 s. E. FACKLER 3,482,676

DOCUMENT FEED BELT Filed Jan. 17, 1968 5 Sheets-Sheet 4 m6 m4 [3/ I66 I05 INVENTOR. GEORGE EFACKLER 147 TOP/VE'VS Dec. 9, 1969 G. E. FACKLER 3,482,676

DOCUMENT FEED BELT Filed Jan. 17, 1968 5 Sheets-Sheet 5 INVENTOR. FAC KLER ATTORNEYS United States Patent 3,482,676 DOCUMENT FEED BELT George E. Fackler, Walworth, N.Y., assignor to Xerox Corporation, Rochester, N.Y., a corporation of New York Filed Jan. 17, 1968, Ser. No. 698,626 Int. Cl. B65g /32 US. Cl. 198-193 3 Claims ABSTRACT OF THE DISCLOSURE This invention relates to a document transport belt, and more particularly, to a document transport belt having a light reflective outer layer and an electrically conductive inner layer.

In apparatus using one or more belt type transports for feeding documents, the relative movement of the transport belt or belts to other parts of the apparatus tends to create a static electric charge on the transport belt or belts. When documents such as papers, cardboard, etc. are fed by the apparatus an electric charge on the belt or belts tends to hold the document attached to the belt rendering separation of the document therefrom difficult.

Where the documents are fed to a photosensitive type copying or duplicating machine, it is desirable that the background for the document when copied be white or as nearly white as possible. Inasmuch as a portion of the transport belt overlays the machine platen and hence forms the backdrop for the document being copied, the transport belt should accordingly be white or as light colored as possible. However, white or light colored materials having the requisite flexibility to render them suitable for use as a document transport belt are relatively poor conductors of electricity and thus enhance the buildup of undesired static electrical charge on the belt with increased difliculty in separating documents therefrom.

It is a principal object of the present invention to provide a new and improved document transport belt.

It is a further object of the present invention to provide a flexible document transport belt suitable for use with photosensitive type copying machines.

It is an object of the present invention to provide an improved transport belt for documents having a light reflective document engaging surface and electrically conductive inner ground surface.

This invention relates to a document transport belt for use with apparatus for feeding documents onto the platen of a photosensitive copying machine which comprises an outer layer for frictionally engaging a document to carry the document therewith on feeding movement of the transport belt, the outer layer being comprised of a flexible light reflective material whereby to form a light reflective background for the document; and an inner layer comprised of flexible electrically conductive material for grounding the belt to prevent build up of electrical charge thereon.

For a better understanding of this invention as well as other objects and further features thereof reference is had to the following detailed description of the invention to be read in connection with the accompanying drawings, wherein:

FIGURE 1 is a front view partly in section showing the document feeding apparatus of the present invention;

FIGURE 2 is an end view with parts broken away showing the document storage tray and document feed mechanism for the apparatus shown in FIGURE 1;

FIGURE 3 is an enlarged cross sectional view of the apparatus shown in FIGURE 1 illustrating the document registering stop and the transport belt;

FIGURE 4 is an isometric view of the apparatus shown in FIGURE 1 with parts broken away showing the platen and document transport mechanism;

FIGURE 5 is a schematic view of the drive mechanism for the document feeding apparatus shown in FIG- URE 1; and

FIGURE 6 is a schematic view of the control circuit for the apparatus shown in FIGURE 1.

Referring to the drawings, there is shown the document feed apparatus, designated generally by the numeral 10, of the present invention. Document feed apparatus 10, which includes document supply tray 12, primary document feed 14, single document limiter 16, intermediate document feed 18, and transport 20, is adapted to feed any bendable sheet-like material such as paper, film, etc. As will become more apparent hereafter, document feed apparatus 10 feeds one document at a time from a quantity of documents, which may be of random size and thickness into a predetermined position on a surface 26, as for example, the platen of a document, copying machine (not shown).

A discharge feed 22 cooperates with transport 20 to clear documents from platen 26. Discharge feed 22 empties into return document tray 24.

In operation, the bottom document on supply tray 12 is advanced by belt 30 of primary feed 14 into the nip of rolls 40, 42 of single document limiter 16 which serves to limit feed to one document at a time. Document supply tray 12 is preferably tilted downwardly to enhance separation of individual documents during feeding. From single document limiter 16 the document is carried by intermediate feed 18 and transport 20 onto platen 26 where, as will appear more fully hereinafter, the document trailing edge is registered with stop 82. Following use, the document is removed by transport 20 and discharge feed 22 to return document tray 24 to complete the cycle.

Referring to FIGURES 1 through 4 of the drawings document tray 12 has a base 60 with lower end wall 61 and side walls 62. Preferably, an adjustable register 64 is provided to enable the Width of tray 12 to be varied for various sized documents. Additionally end wall 61 is preferably arranged for longitudinal adjusting movement to accommodate various document lengths. Document retainer 66, which may be pivotally mounted on tray 12, overlays base 60 of tray 12. Springs 67 resiliently bias retainer 66 toward base 60 of tray 12. As can be understood retainer 66 serves to hold documents in place on tray 12.

To enhance separation of documents stored in tray 12, tray 12 is inclined downwardly. The angle of downward inclination of tray 12 relative to the horizontal is preferably greater than 45 but less than 80. For average Weight and thickness documents, an angle of substantially has been found to give optimum document separation. Slot-like opening 69 in base 60 of tray 12 accommodates belt 30 of primary feed 14, the belt 30 being operatively supported on drive and idler rollers 31, 32, respectively, such that the exposed surface of belt 30 is slightly above base 60 of tray 12. As will appear more fully hereinafter, drive roller 31 of primary feed 14 is driven intermittently (in the counterclockwise direction shown by the solid arrow in FIGURE 1) to advance the lowermost document on tray 12 upwardly. While belt 30 of primary feed 14 is illustrated substantially midway between sides 62 of tray 12, it is understood that belt 30 may be placed oif center. Additionally, it is understood that primary feed 14 may comprise plural belts or other suitable feeding means such as one or more feed rolls.

Feed and slip rolls 40, 42, respectively, of single document limiter 16 are downstream of primary feed 14. A portion of the periphery of feed rolls 40, which are carried by shaft 130 and driven in a document feeding direction (counterclockwise as shown by the solid line arrow in FIGURE 1 of the drawings) project through opening 44 in base 60 of tray 12, Slip roll 42 is mounted on shaft 120 supported in members 45. Members 45, which may be pivotally secured to side walls 62 of tray 12, are biased inwardly toward base 60 of tray 12 to assure contact of roll 42 with document being advanced. Rolls 40, 42 are preferably formed from relatively soft elastomeric compound to provide desired frictional contact of rolls 40, 42 with documents. As will appear more fully herein, slip roll 42 rotates in a direction opposite to that of roll 40.

The upper end of base 60 of document tray 12 is curved at 60. Document guide 68, the curvature of which is substantially the same as that of base portion 60', is spacedly positioned thereabove. Curved base portion 60" and guide 68 cooperate to form a curved path for routing the document leaving single document limiter 16 onto platen 26, which in the exemplary showing of the drawings is substantially horizontal. Intermediate feed 18 comprises one or more pairs of feed and idler rolls 70, 71, respectively, the peripheral surfaces of which project through suitable openings in guide 68 and base section 60 respectively into operative engagement with one another. Suitable means (not shown) are preferably provided to maintain rolls 70, 71 in releasable engagement with one another. Rolls 70, 71 cooperate to feed the document along the curved path formed by base section 60' and guide 68 into operative relationship with transport 20.

Where document feed apparatus is used with a copying or reproducing machine (not shown), platen 26 may comprise a generally rectangular transparent or window section 80 having an opaque border 81. Border 81 is raised slightly above transparent section 80 at the document inlet end to provide a document registering stop 82. As will be more apparent hereinafter, the trailing edge of each document fed onto platen surface 26 is registered with stop 82. The portion 83 of border 81 at the document discharge side is preferably flush with or slightly below the level of transparent section 80 to facilitate egress of documents from the platen.

Transport comprises a belt 85 arranged above platen 26 and movably supported by drive and idler rollers 86, 87 respectively. Rollers 86, 87 are mounted on shafts 89, 90, respectively, journaled in longitudinally extending supports 91. Supports 91 may be pivotally attached through shaft 89 to the device with which feed apparatus 10 is employed to permit transport 20 to be raised for access to platen 26. In the arrangement illustrated the weight of transport 20 establishes the necessary frictional relationship between the Working surface of belt 85 and the document platen 26. Idler roller 87 serves to bias belt 85 outwardly into contact with platen 26 closely adjacent stop 82 to assure engagement of the document trailing edge with stop 82 on reversal of belt 85.

Where document feed apparatus 10 is used with a photo or electrostatic type copying machine (not shown) belt 85 is preferably composed of an outer working layer 92 formed from a flexible light reflective material such as white rubber, plastic, etc. with an inner or backing layer 93 formed from a suitable flexible electrically conductive material such as graphite impregnated rubber secured as by bonding thereto. For example, outer belt layer 92 may be comprised of white or light colored polyolefin or neoprene with inner layer 93 comprised of graphite impregnated neoprene. Outer layer 92 of belt 85 which is sized to overlay platen window section 80, serves both as a light reflector and as a means to feed documents across platen 26. Inner layer 93 serves to ground belt through rollers 86, 87 to document feed apparatus 10 to prevent undesired build-up of electrical charge on belt 85.

Discharge feed 22 may comprise one or more belts 95 operatively supported by drive and idler rollers 96, 97, respectively. The inlet side of belts 95 is slightly below the level of platen 26 and proximate to the discharge side thereof. As can be understood, documents carried across platen 26 by belt 85 of transport 20 fall onto belt 95 of discharge feed 22. Return document tray 24 may comprise any suitable receptable for storing returned documents. Tray 24 is arranged adjacent to and slightly below the discharge end of feed 22.

Referring particularly to FIGURES 2 and 5, a reversible drive motor which is preferably supported from document tray 12 is used as the power source for document feed apparatus 10. Output shaft 102 of motor 100 is drivingly connected to power take-off shaft 104 by gears 105, 106.

Belt 109 drivingly connects power take-off shaft 104 with one-way clutch 108 on shaft 110 supporting feed roll 70 of intermediate feed 18 and with shaft 89 supporting drive roller 86 of transport belt 85. Idler shaft 90 which supports idler roller 88 of transport belt 85 has drive disc 114 mounted thereon and drivingly connected thereto through one Way clutch 124. Disc 114 is engageable with disc 116 on shaft of discharge feed 22 to drive rollers 96 thereof in a document removing direction (counterclockwise as shown by the solid line arrow in FIGURE 1) when transport 20 is placed in operative position.

When motor 100 is reversed to drive belt 85 backwards, clutches 108, 124 are disengaged to prevent backward or reverse movement of feed roll 70 and discharge feed belts 95.

Roll 42 of single document limiter 16 is mounted on rotatable shaft 120. Shaft 120 is driven through belt 123 from idler shaft 121. Gear 118 on shaft 121 meshes with gear 119 on shaft 110 of intermediate feed roll 70. Roll 42 ordinarily slips on the surface of the document being fed forward by belt 30 of primary feed 14 and rolls 40 of document limiter 16. However, where two or more documents are fed forward, roll 42 rejects the uppermost ones of the documents to limit feed to a single document.

Shaft supporting feed rolls 40 of single document limiter 16 is driven from power take-off shaft 204 through clutch 126 and meshing gears 128, 129. Shaft 125, supporting drive roller 31 of primary feed 14 is drivingly connected to shaft 130 by means of belt 131. Clutch 126 which may be an electromagnetic type clutch, permits the driving connection of motor 100 with feed rolls 40 of single document limiter 16 and with primary document feed 14 to be interrupted.

Referring to FIGURE 6, there is shown a control circuit 138 for document feed apparatus 10 adapted to regulate the document feed apparatus in accordance with the preset demands of master controller 140. Controller 140 which may for example comprise the programmer for the device with which document feed apparatus 10 is used, such as a copier, includes a pair of gang operated control switches 196, 196. Switches 196, 196' are movable from an off position to either an automatic document feed mode (the solid line position of FIG. 6) or to a semi-automatic document feed mode (the dotted line position of FIG. 6). Automatic feed mode refers to automatic advancing of each succeeding document onto platen 26 where as semi-automatic feed mode refers to advance of a single document only onto platen 26. Switch 196, which is connected to the gate of OR circuit 200, is adapted to generate an actuating signal when start-up of document feeding apparatus 10 is desired. Switch 196 which in the automatic feed mode is connected to the gates of OR circuit 200 and signal inverter 201 and in the semi-automatic feed mode to the gate of OR circuit 202, is adapted to generate an actuating signal when use of the document then on platen 26 is completed.

Control circuit 138 includes a pair of switching circuits 142, 164 which may for example comprise flip-flop circuits, each having a pair of control gates, termed set and reset gates, and a corresponding pair of output taps termed set and reset taps. The output side of OR circuit 200 may be connected to the set gate of circuit 142. The corresponding set output tap thereof is connected by line 143 to the gates of NAND circuits 144, 146, 148, 150, 152. The reset output tap of circuit 142 is connected by line 141 to the set gate of circuit 164 and to the gate of NAND circuit 156 while the reset gate thereof is connected to the output side of NAND circuits 148, 206. The set output tap of circuit 164 is connected by line 163 to the gates of NAND circuits 148, 158. The reset gate of circuit 164 is connected with the output side of NAND circuits 146, 206.

While NAND circuits or gates described herein, other suitable AND function circuits such as AND circuits, OR circuits, NOR circuits, or combinations of NAND, AND, OR or NOR circuits may suggest themselves to those skilled in the art.

NAND circuit 144 controls, through suitable circuitry (not shown), operation of clutch 126, circuit 144 being adapted when triggered to engage clutch 126. NAND cir cuits 146, 148 control operation of motor 100 in the forward and reverse directions, respectively. Through suitable circuitry (not shown), NAND circuit 150, when triggered, renders motor 100 inoperative to stop document feed apparatus 10. As will appear more fully, circuit 150 is triggered on failure of a document to feed, as for example, due to jamming. NAND circuit 154 when triggered, operates motor 100 in a forward feed direction to clear the last document from platen surface 26 while NAND circuit 152 together with NAND circuits 179, 182 form a document movement responsive control.

A photoelectric type signal generator 165 with light source 170 therefore is provided. An apertured disc 166 is arranged between signal generator 165 and light source 170. Disc 166 is preferably secured to power take-01f shaft 104. Apertures 167 in disc 166 permit light from light source 170 to register on signal generator 165 whereby signal generator generates a pulse-like signal output as power take-off shaft 104 rotates during operation of document feed apparatus 10.

The signal output from generator 165 is fed to a suitable signal inverting and retarding device such as NAND circuit 174, the inverted signal passing through line 169 to the gates of NAND circuits 146, 148, 150 and 154. Additionally, the signal output of generator 165 passes via line 173 to the set gate of first stage n of cycle counter 176. Preferably suitable signal retarding means 175 is provided to delay the signal input of generator 165 to counter 176 and prevent mechanical oscillations, which may be present in the signal generating mechanism, from falsely triggering counter 176.

Cycle counter 176 may be conveniently comprised of a number of bistable switching circuits or stages n, n n

n series connected to one another. The set output taps of certain counter stages, such as n n n n are tapped to obtain desired control timing increments as will be more apparent hereinafter. The reset output taps of counter stages n, n n n are connected by line 183 to the gate of NAND circuit 192 while the reset gates of stages 11, n n n are connected by line 195 to the output of NAND circuit 188.

Normally closed switch 178 on tray 12 has an actuating arm 178' in the path of document movement. As a document feeds toward platen 26, the leading edge there of engages switch arm 178' opening switch 178. The body of the doctunent retains switch 178 open until the document trailing edge passes therebeyond. Switch 178 is connected to the gates of NAND circuits 179 and 182, and

through capacitor 187 to the gate of NAND circuit 184.

NAND circuits 184, 188, 192 control counter 176, the signal from circuit 184, when rendered inoperative in response to certain hereinafter described operational conditions of document feeding apparatus 10, combining with a signal from circuit 192 to trigger circuit 188 and reset counter 176. As counter stages 11, n n n reset, the signals at the reset tap thereof combine to trigger circuit 192 which renders circuit 188 inoperative terminating the reset cycle.

Winding 185, controlling rotation of motor in the document feeding direction, and winding 190 controlling rotation of motor 100 in the reverse direction, are connected through switches 186, 189, respectively, with a suitable source of power. Switching relays 193, 194 control switches 186, 189, respectively. When energized, relays 193, 194 close switch contacts 186', 189, respectively, to complete an energizing circuit to winding 185 of motor 100 whereby document feed apparatus 10 is driven in the document feeding direction by motor 100, Switching relay 194, when de-energized, closes switch contact 189" so that on energization of switching relay 193 only, there is completed an energizing circuit to winding 190 through switch contacts 186, 189" whereby document feed apparatus 10 is driven in the reverse direction by motor 100.

As will appear more fully, start up of document feeding apparatus 10 is effected by switching circuits 142, 164 whereby the signal from the output taps thereof to the gates of NAND circuits 156, 158, respectively, falls to zero. Circuits 156, 158 are accordingly rendered inoperative, the signal output of circuits 156, 158 operating relays 193, 194, respectively, to close switch contacts 186, 189 thereof and energize motor winding 185. Motor 100 accordingly drives feeding apparatus 10 in a document feeding direction.

Switch 196' of controller 140, when in the automatic mode (the solid line position in FIGURE 6) is connected through inverter 201 to the gate of NAND circuit 198. A switch 159 on tray 12 closes whenever the supply of documents on tray 12 is exhausted. Switch 159 is connected to the gate of circuit 198.

The output side of circuit 198 is connected to the gate of OR circuit 202. Switch 196', when in the semi-automatic mode (the dotted line position in FIGURE 6), is connected to the gate of OR circuit 202. The output side of OR circuit 202 connects to the gate of NAND circuit 204.

The output side of circuit 204 is connected to the gate of circuit 206. The output side of NAND circuit 206 is connected to the gates of NAND circuits 156, 204 and to the reset gates of circuits 142, 164. Circuit 206, when triggered, prevents circuits 142, 164 from being switched whereby operation of the document feeding apparatus 10 to clear the last document from plate 26 may be effected.

The output side of circuits 154 is connected to the gate of NAND circuit 206. Circuit 154, when triggered, renders circuit 206 inoperative thereby triggering circuits 156, 158 to stop feeding apparatus 10.

With at least one document on tray 12 and switches 196, 196' of controller positioned in either automatic or semi-automatic mode, the actuating signal from switch 196 to OR circuit 200 switches circuit 142. The signal appearing at the set tap of circuit 142 is fed by line 143 to the gates of NAND circuits 144, 146, 148, and 152. The combined signal inputs from circuits 142, 152 trigger circuit 144 whereby clutch 126 is engaged,

At the same time, the loss of signal at the reset tap of circuit 142 and in line 141 switches circuit 164 whereby the signal at the set tap of circuit 164 to line 163 falls to Zero. The loss of signal in lines 141, 163 renders NAND circuits -156, 158 inoperative. Switching relays 193, 194 are therefore actuated closing switch contacts 186, 189' respectively, to energize winding of motor 7 100. Motor 100, therefore, drives primary feed 14, rolls 40 of single document limiter 16, intermediate feed 18, transport 20 and discharge feed 22 of the apparatus 10 in a document feeding direction.

With start up of document feed apparatus 10, the pulselike signal output of signal generator 165 passes through signal inverter and retard circuit -174 to line 169 and the gates of NAND circuits 146, 148, 150, 154, and through signal retard means 175 to line 173 and the set gate of stage n of counter 176. The signal input of generator 165 to stage n starts counter 176.

At start up of the document feeding apparatus 10, NAND circuit 182 is triggered by the combined signals of switch 178 and circuit 152. The signal output of circuit 182 to NAND circuits 152, 179 accordingly falls to zero. NAND circuit 179 is therefore inoperative and the signal output of inverter 191 is zero. As the document being fed moves toward platen 26, the leading edge thereof strikes switch arm 178, opening switch 178 and interrupting the signal output of switch 178 to NAND circuit 182. The loss of signal input renders circuit 182 inoperative, the ensuing signal output of circuit 182 combining with the signal input of circuit 142 to trigger NAND circuit 152. The signal in line 153 leading to the gates of NAND circuits 144, 150, 154, and 182 is accordingly removed. Circuit 144 is accordingly rendered inoperative, disengaging clutch 126 and stopping primary feed 14 and rolls 40 of single document limiter 16.

The signal pulse generated upon opening of switch 178 renders NAND circuit 184 inoperative, the ensuing signal output therefrom combining with that of NAND circuit 192, which is inoperative, to trigger circuit 188. Triggering of circuit 188 resets counter 176, the combined signal inputs of counter stages n, n n n when reset, triggering circuit 192 to terminate the reset cycle.

Should switch 178 fail to open following predetermined operation of apparatus 10, the signal output of counter stage 11:, when trigged to line 197 combines with signal inputs from circuits 142, 152 and signal generator 165 to trigger circuit 150 whereby motor 100 is de-energized and feeding apparatus 10' stopped. As described heretofore, where the document feed is normal, the moving document opens switch 178 triggering NAND circuit 152. The resulting loss of signal to circuit 150 prohibits counter 176 from triggering circuit 150.

Assuming normal document feed, switch 178 is maintained in an open position by the weight of the document on switch arm 178'. As the document trailing edge passes therebeyond switch 178 recloses, the signal therefrom combining with the signal from circuit 182, which is inoperative, to trigger circuit 179. The ensuing signal output of inverter 191 is fed to the gates of NAND circuits 146, 148.

Following preset movement of document feeding apparatus 10, the signal output of counter stage n; to line 199 combines with signal inputs from circuits 142, 191 and signal generator 165 to trigger circuit 146. The resulting loss of signal in line 161 switches circuit 164, the signal appearing at the set output tap and in line 163 connected thereto combining with the signal from NAND circuit 206 which is inoperative to trigger circuit 158 and de-energize switching relay 194. De-energization of relay 194 opens switch contact 189 and closes contact 189". Closure of switch contact 189" completes a circuit through switch contacts 186', 189" to winding 190 of motor 100 whereby motor 100 is reversed to drive transport belt 85 backwards to register the document trailing edge with stop 82. It is understood that clutches 108, 124 interrupt the driving connection to intermediate and discharge feeds 18, 22, respectively. And as described heretofore, clutch 126 connecting motor with the primary feed 14 and rolls 40 of single document limiter 16 is previously disengaged.

Following predetermined movement of transport 20 backwardly, the signal output of counter stage 11 to line 205 combines with the signal inputs from circuits 142, 164, 191 signal generator 165, and counter stage 21 to trigger circuit 148. The resulting loss of signal in line 207 switches circuit 142, the signal at the reset tap thereof to line 141 combining with the signal input from 206 to trigger circuit 156 whereby relay 193 is de-energized and motor 100 stopped. Additionally, the loss of signal in line 207 renders circuit 184 inoperative thereby triggering circuit 188 and resetting counter 176 as described heretofore.

Where switches 196, 196 of controller 140 are in the automatic mode (the solid line position in FIGURE 6), the actuating signal from switch 196 to OR circuit 200, when use of the document on platen 26 is completed, switches circuit 142 to restart document feeding apparatus 10 as is described heretofore. When restarted transport 20 carries the document on platen 26 onto belts of discharge feed 22 which in turn carry the document into return tray 24.

When the last document on tray 12 is fed forward, tray switch 159 closes placing a signal on the'gate of NAND circuit 198. When use of that document is completed, the actuating signal from switch 196 to inverter 201 and circuit 198 combines with the signal input of switch 159 to trigger circuit 198 whereby NAND circuit 204 is rendered inoperative. The ensuing signal input of circuit 204 combines with that of circuit 154 to trigger circuit 206. The loss of signal in line 157 leading to the gates of circuits 156, 158 renders circuits 156, 158 inoperative thereby energizing winding 185 of motor whereby document feeding apparatus 10 is operated in a document feeding direction. Transport 20 and discharge feed 22 accordingly cooperate to transport the document from platen 26 to return tray 24. The loss of signal from line 157 to the reset taps of circuits 142, 164 prevents switching of circuits 142, 164 by switch 196.

With start up of feeding apparatus 10, the signal input from signal generator 165 to counter 176 resumes. Following predetermined feeding movement of the apparatus 10, a signal from counter stage 11,, to line 209 combines with signals from circuit 152 and signal generator 165 to trigger circuit 154. The ensuing loss of signal in line 211 renders circuit 206 inoperative. The ensuing signal from circuit 206 combines with the signal output of circuits 142, 164, respectively, to trigger circuits 156, 158. As noted heretofore, circuits 156 when triggered, de-energize switching relay 193 to open switch 186 and stop motor 100.

Inasmuch as circuit 206, when triggered prevents circuit 142 from being switched, the signal at the set tap of circuit 142 to line 143 and NAND circuits 146, 148, 150 is zero. The signal outputs of counter stages n n 11 to circuits 146, 148, 150, respectively, during the predetermined movement of feeding apparatus 10 required to clear the last document from platen 26 and trigger counter stage n are therefore ineffectual.

Where switches 196, 196 of controller are in the semi-automatic mode (the dotted line position in FIG- URE 6), the actuating signal from switch 196 to OR circuit 200 starts document feed apparatus 10 as described heretofore. When use of the document is completed, the actuating signal from switch 196 to OR circuit 202 renders NAND circuit 204 inoperative. With circuit 204 inoperative, motor 100 is energized in the forward feeding direction through circuit 206 as described heretofore. Following predetermined feeding movement of apparatus 10, counter stage 11,, triggers circuit 154 to shutdown apparatus 10.

While I have described and illustrated herein a prefered form of my invention, it will be apparent to those skilled in the art that changes and modifications may be made thereto without departing from the spirit and intent of my invention.

What is claimed is:

1. A document transport belt for use with apparatus for feeding documents onto the platen of a photosensitive copying machine comprising an outer layer for frictionally engaging a document to carry said document therewith on feeding movement of said transport belt, said outer layer being comprised of a flexible light reflective material whereby to form a light reflective background for said document, and an inner layer comprised of flexible electrically conductive material for grounding said belt and prevent build-up of electrical charge thereon. 2. The document transport belt according to claim 1 i which said outer layer material comprises white neoprene.

3. The document transport belt according to claim 1 in which said inner layer material comprises graphite impregnated neoprene.

References Cited FOREIGN PATENTS 791,998 3/1958 Great Britain.

ROBE-RT G. SHERIDAN, Primary Examiner U.S. Cl. X.R. 161-164 

